// Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package runtime_test import ( "internal/asan" "runtime" "testing" "time" "unsafe" ) type Tintptr *int // assignable to *int type Tint int // *Tint implements Tinter, interface{} func (t *Tint) m() {} type Tinter interface { m() } func TestFinalizerType(t *testing.T) { ch := make(chan bool, 10) finalize := func(x *int) { if *x != 97531 { t.Errorf("finalizer %d, want %d", *x, 97531) } ch <- true } var finalizerTests = []struct { convert func(*int) any finalizer any }{ {func(x *int) any { return x }, func(v *int) { finalize(v) }}, {func(x *int) any { return Tintptr(x) }, func(v Tintptr) { finalize(v) }}, {func(x *int) any { return Tintptr(x) }, func(v *int) { finalize(v) }}, {func(x *int) any { return (*Tint)(x) }, func(v *Tint) { finalize((*int)(v)) }}, {func(x *int) any { return (*Tint)(x) }, func(v Tinter) { finalize((*int)(v.(*Tint))) }}, // Test case for argument spill slot. // If the spill slot was not counted for the frame size, it will (incorrectly) choose // call32 as the result has (exactly) 32 bytes. When the argument actually spills, // it clobbers the caller's frame (likely the return PC). {func(x *int) any { return x }, func(v any) [4]int64 { print() // force spill finalize(v.(*int)) return [4]int64{} }}, } for _, tt := range finalizerTests { done := make(chan bool, 1) go func() { // allocate struct with pointer to avoid hitting tinyalloc. // Otherwise we can't be sure when the allocation will // be freed. type T struct { v int p unsafe.Pointer } v := &new(T).v *v = 97531 runtime.SetFinalizer(tt.convert(v), tt.finalizer) v = nil done <- true }() <-done runtime.GC() <-ch } } type bigValue struct { fill uint64 it bool up string } func TestFinalizerInterfaceBig(t *testing.T) { ch := make(chan bool) done := make(chan bool, 1) go func() { v := &bigValue{0xDEADBEEFDEADBEEF, true, "It matters not how strait the gate"} old := *v runtime.SetFinalizer(v, func(v any) { i, ok := v.(*bigValue) if !ok { t.Errorf("finalizer called with type %T, want *bigValue", v) } if *i != old { t.Errorf("finalizer called with %+v, want %+v", *i, old) } close(ch) }) v = nil done <- true }() <-done runtime.GC() <-ch } func fin(v *int) { } // Verify we don't crash at least. golang.org/issue/6857 func TestFinalizerZeroSizedStruct(t *testing.T) { type Z struct{} z := new(Z) runtime.SetFinalizer(z, func(*Z) {}) } func BenchmarkFinalizer(b *testing.B) { const Batch = 1000 b.RunParallel(func(pb *testing.PB) { var data [Batch]*int for i := 0; i < Batch; i++ { data[i] = new(int) } for pb.Next() { for i := 0; i < Batch; i++ { runtime.SetFinalizer(data[i], fin) } for i := 0; i < Batch; i++ { runtime.SetFinalizer(data[i], nil) } } }) } func BenchmarkFinalizerRun(b *testing.B) { b.RunParallel(func(pb *testing.PB) { for pb.Next() { v := new(int) runtime.SetFinalizer(v, fin) } }) } // One chunk must be exactly one sizeclass in size. // It should be a sizeclass not used much by others, so we // have a greater chance of finding adjacent ones. // size class 19: 320 byte objects, 25 per page, 1 page alloc at a time const objsize = 320 type objtype [objsize]byte func adjChunks() (*objtype, *objtype) { var s []*objtype for { c := new(objtype) for _, d := range s { if uintptr(unsafe.Pointer(c))+unsafe.Sizeof(*c) == uintptr(unsafe.Pointer(d)) { return c, d } if uintptr(unsafe.Pointer(d))+unsafe.Sizeof(*c) == uintptr(unsafe.Pointer(c)) { return d, c } } s = append(s, c) } } // Make sure an empty slice on the stack doesn't pin the next object in memory. func TestEmptySlice(t *testing.T) { if asan.Enabled { t.Skip("skipping with -asan: test assumes exact size class alignment, but asan redzone breaks that assumption") } x, y := adjChunks() // the pointer inside xs points to y. xs := x[objsize:] // change objsize to objsize-1 and the test passes fin := make(chan bool, 1) runtime.SetFinalizer(y, func(z *objtype) { fin <- true }) runtime.GC() <-fin xsglobal = xs // keep empty slice alive until here } var xsglobal []byte func adjStringChunk() (string, *objtype) { b := make([]byte, objsize) for { s := string(b) t := new(objtype) p := *(*uintptr)(unsafe.Pointer(&s)) q := uintptr(unsafe.Pointer(t)) if p+objsize == q { return s, t } } } // Make sure an empty string on the stack doesn't pin the next object in memory. func TestEmptyString(t *testing.T) { if asan.Enabled { t.Skip("skipping with -asan: test assumes exact size class alignment, but asan redzone breaks that assumption") } x, y := adjStringChunk() ss := x[objsize:] // change objsize to objsize-1 and the test passes fin := make(chan bool, 1) // set finalizer on string contents of y runtime.SetFinalizer(y, func(z *objtype) { fin <- true }) runtime.GC() <-fin ssglobal = ss // keep 0-length string live until here } var ssglobal string // Test for issue 7656. func TestFinalizerOnGlobal(t *testing.T) { runtime.SetFinalizer(Foo1, func(p *Object1) {}) runtime.SetFinalizer(Foo2, func(p *Object2) {}) runtime.SetFinalizer(Foo1, nil) runtime.SetFinalizer(Foo2, nil) } type Object1 struct { Something []byte } type Object2 struct { Something byte } var ( Foo2 = &Object2{} Foo1 = &Object1{} ) func TestDeferKeepAlive(t *testing.T) { if *flagQuick { t.Skip("-quick") } // See issue 21402. t.Parallel() type T *int // needs to be a pointer base type to avoid tinyalloc and its never-finalized behavior. x := new(T) finRun := false runtime.SetFinalizer(x, func(x *T) { finRun = true }) defer runtime.KeepAlive(x) runtime.GC() time.Sleep(time.Second) if finRun { t.Errorf("finalizer ran prematurely") } }